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Novel Anode Catalyst for Direct Methanol Fuel Cells

by Yaakob, Zahira , Daud, W. R. W. , Basri, S. , Kadhum, Abdul Amir H. , Kamarudin, Siti Kartom

in Adsorption / Carbon / Catalysis / Catalysts / Chemical properties / Chemical synthesis / Electric Power Supplies / Electrochemistry / Electrodes / Equipment and supplies / Fuel cells / Fuel technology / Iron - chemistry / Kinetics / Methanol / Methanol - chemistry / Methods / Microscopy, Electron, Scanning / Nanotechnology / Nanotubes, Carbon - chemistry / Nickel / Nickel - chemistry / Oxidation / Photoelectron Spectroscopy / Poisoning / Porous materials / Production processes / Spectrometry / Spectrometry, X-Ray Emission / Studies / X-Ray Diffraction

2014

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Novel Anode Catalyst for Direct Methanol Fuel Cells

by Yaakob, Zahira , Daud, W. R. W. , Basri, S. , Kadhum, Abdul Amir H. , Kamarudin, Siti Kartom

2014

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Novel Anode Catalyst for Direct Methanol Fuel Cells

by Yaakob, Zahira , Daud, W. R. W. , Basri, S. , Kadhum, Abdul Amir H. , Kamarudin, Siti Kartom

2014

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Journal Article

Novel Anode Catalyst for Direct Methanol Fuel Cells

Yaakob, Zahira,

Daud, W. R. W.,

Basri, S.,

Kadhum, Abdul Amir H.,

Kamarudin, Siti Kartom

2014

Overview

PtRu catalyst is a promising anodic catalyst for direct methanol fuel cells (DMFCs) but the slow reaction kinetics reduce the performance of DMFCs. Therefore, this study attempts to improve the performance of PtRu catalysts by adding nickel (Ni) and iron (Fe). Multiwalled carbon nanotubes (MWCNTs) are used to increase the active area of the catalyst and to improve the catalyst performance. Electrochemical analysis techniques, such as energy dispersive X-ray spectrometry (EDX), X-ray diffraction (XRD), field emission scanning electron microscopy (FESEM), and X-ray photoelectron spectroscopy (XPS), are used to characterize the kinetic parameters of the hybrid catalyst. Cyclic voltammetry (CV) is used to investigate the effects of adding Fe and Ni to the catalyst on the reaction kinetics. Additionally, chronoamperometry (CA) tests were conducted to study the long-term performance of the catalyst for catalyzing the methanol oxidation reaction (MOR). The binding energies of the reactants and products are compared to determine the kinetics and potential surface energy for methanol oxidation. The FESEM analysis results indicate that well-dispersed nanoscale (2–5 nm) PtRu particles are formed on the MWCNTs. Finally, PtRuFeNi/MWCNT improves the reaction kinetics of anode catalysts for DMFCs and obtains a mass current of 31 A g−1 catalyst.

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Publisher

Hindawi Publishing Corporation,John Wiley & Sons, Inc,Hindawi Limited,Wiley

Subject

Adsorption

/ Carbon

/ Catalysis

/ Catalysts

/ Chemical properties

/ Chemical synthesis

/ Electric Power Supplies